• No results found

Committee for the Evaluation of Computer Science Study Programs. Technion - Israel Institute of Technology Computer Science Faculty Evaluation Report

N/A
N/A
Protected

Academic year: 2021

Share "Committee for the Evaluation of Computer Science Study Programs. Technion - Israel Institute of Technology Computer Science Faculty Evaluation Report"

Copied!
28
0
0

Loading.... (view fulltext now)

Full text

(1)

Committee for the Evaluation of Computer Science Study Programs

Technion - Israel Institute of Technology

Computer Science Faculty

Evaluation Report

(2)

Contents

Chapter 1: Background……….…..………..3

Chapter 2: Committee Procedures ………...……….………...…………..5

Chapter 3: Evaluation of Computer Science Faculty at

The Technion ……….……….……...……...…6 Chapter 4: General Recommendations and Timetable………..17

Appendices: Appendix 1 – Letter of Appointment

Appendix 2 – Schedule of the visit

(3)

Chapter 1: Background

The Council for Higher Education (CHE) decided to evaluate study programs in the field of Computer Science during the academic year of 2012-2013.

Following the decision of the CHE, the Minister of Education, who serves ex officio as Chairperson of the CHE, appointed a Committee consisting of:

 Prof. Maurice Herlihy - Computer Science Department, Brown University, USA - Committee Chair

 Prof. Robert L. Constable - Computer Science Department ,Cornell University, USA1

 Prof. David Dobkin - Department of Computer Science, Princeton University, USA2

 Prof. Sarit Kraus - Department of Computer Science, Bar Ilan University, Israel3

 Prof. Dmitry Feichtner-Kozlov - Department of Mathematics, Bremen University, Germany

 Prof. Joe Turner, Jr. - (Emeritus) - Department of Computer Science, Clemson University, USA - ABET Representative

 Prof. Moshe Vardi - Department of Computer Science, Rice University, USA Ms. Tal Reichman served as the Coordinator of the Committee on behalf of the CHE. Within the framework of its activity, the Committee was requested to:4

1. Examine the self-evaluation reports, submitted by the institutions that provide study programs in Computer Science, and to conduct on-site visits at those institutions.

2. Submit to the CHE an individual report on each of the evaluated academic units and study programs, including the Committee's findings and recommendations.

1 In accordance with the CHE's policy, Prof. Robert L. Constable did not participate in the evaluation of the Computer Science department at Ben Gurion University to prevent the appearance of a conflict of interests.

2 Due to scheduling constraints, Prof. David Dobkin did not participate in the site visits to the Jerusalem College of Technology, Hadassah Academic College, Ariel University, the Weizmann Institute of Science, the College of Management Academic Studies, Holon Institute of Technology, the Hebrew University of Jerusalem, and the Technion.

(4)

3. Submit to the CHE a general report regarding the examined field of study within the Israeli system of higher education including recommendations for standards in the evaluated field of study.

The entire process was conducted in accordance with the CHE’s Guidelines for Self-Evaluation of (October 2011).

(5)

Chapter 2: Committee Procedures

The Committee held its first meeting on May 21, 2013, during which it discussed fundamental issues concerning higher education in Israel, the quality assessment activity, as well as Computer Science Study programs in Israel.

In May - June 2013, the Committee held its first round of visits of evaluation, and visited the Hadassah Academic College, Jerusalem College of Technology, Ariel University, Tel Aviv University and Bar-Ilan University. In January 2014, the committee held its second round of visits of evaluation, and visited Ben-Gurion of the Negev, the Open University of Israel, the Interdisciplinary Center Herzliya, Tel-Aviv Yaffo Academic College, Netanya Academic College, Weizmann Institute of Science, College of Management Academic Studies, and Holon Institute of Technology. In May 2014, the committee held its third round of visits of evaluation, and visited the Hebrew University of Jerusalem, the University of Haifa, Tel-Hai Academic College, and the Technion. During the visits, the Committee met with various stakeholders at the institutions, including management, faculty, staff, and students.

This report deals with the Computer Science Faculty at the Technion. The Committee's visit to the Technion took place on May 27-28, 2014.

The schedule of the visit is attached as Appendix 2.

The Committee thanks the senior management of the Technion and the Computer Science Faculty for their self-evaluation report and for their hospitality towards the committee during its visit at the institution.

(6)

Chapter 3: Evaluation of the Computer Science Study Program at

the Technion- Israel Institute of Technology

This Report relates to the situation current at the time of the visit to the institution, and does not take account of any subsequent changes. The Report records the conclusions reached by the Evaluation Committee based on the documentation provided by the institution, information gained through interviews, discussion and observation as well as other information available to the Committee.

1. Executive Summary

Computer science is central to the Israeli economy and even to its security. Among winners of the Turing award (generally considered as the “Nobel Prize” for computer scientists), Israel has more recipients than all but one other country.

The Technion Computer Science Faculty ranks among the top computer science academic units in the world, and has one of the best academic programs in the institute. Given its proximity to industry and the achievements of the academic staff, the faculty is as distinguished as the best computer science departments in Europe.

The faculty has done an excellent job of balancing traditional theoretical research and curriculum with more experimental and applied areas. However, the institute has yet to understand that modern computer science is an experimental discipline, more like engineering than mathematics. The committee was led to believe that the institute funding system treats computer science as a theoretical discipline, but the reality, accepted in the United States for the past 30 years, is that modern computer science is by-and-large experimental.

On the subject of intellectual property (IP) and entrepreneurship, we found a significant disconnection between views of the senior administration on one side, and the academic staff, students, and alumni on the other side. The

(7)

institute’s basic principles and policies are unclear to the academic staff, students, and alumni.

The undergraduate program is one of the best in Israel, but it is under stress. Too often, undergraduates do not receive adequate feedback on assignments. The attrition rate is surprisingly high given the high quality of the students. The average time to degree seems substantially longer than the nominal time, although the committee was not given data. Undergraduates who do not finish their studies, or who take a long time to do so, place a significant burden on the institute and faculty.

The computer science faculty at the Technion has world-class visibility, both in terms of its research achievements and the entrepreneurial achievements of its alumni. The recommendations presented here are intended to keep this position secure.

2. Organizational Structure

Observations and findings

The committee is pleased to observe that the Computer Science Faculty is coordinating and cooperating with the Electrical Engineering Faculty in the form of the Technion Computer Engineering center and related activities. The committee finds that the significant presence of computer scientists across several faculties of the Technion provides further opportunities for synergy and collaboration. These opportunities would raise the level of external recognition of information technology research and education at the Technion, and therefore the external recognition of the Technion itself.

(8)

According to the numbers provided in the self-evaluation report, the student-faculty ratio is higher than the CHE standard of 25:1.5 The committee believes that addressing issues mentioned elsewhere in this report, such as high attrition and long time-to-degree, will also address the issue of the student-faculty ratio by ensuring that more students successfully complete their studies in a timely manner.

The faculty has an active industrial affiliates program. While this program seems successful in terms of cultivating relationships with industry, it does not generate sufficient unrestricted funds to improve the quality of the educational programs. In other institutions (in the United States) such programs are a source of funding for the educational mission.

While the Technion has developed a successful alumni relations program, the program operates at the institutional level, and less at the faculty level.

Recommendations

Medium term [~ within 3-4 years]:

1. The institute should create a task force to develop a strategic plan for the advancement of information technology research and education across the Technion.

2. The Computer Science Faculty should work with its industrial advisory board to rethink the mechanisms and goals of the industrial affiliates program and to increase direct involvement with the alumni relations program.

(9)

3. Mission and Goals

Observations and findings

The institute has yet to understand that modern computer science is an experimental discipline, more like engineering than mathematics. The committee was led to believe that the institute funding system treats computer science as a theoretical discipline, but the reality, accepted in the United States for the past 30 years, is that modern computer science is by-and-large experimental. For example, the allocation of engineer positions for labs does not reflect experimental needs. A computer science laboratory needs a level of resources similar to a “wet” lab in other experimental disciplines.

On the subject of intellectual property (IP) and entrepreneurship, we found a significant disconnection between views of the senior administration on one side, and the academic staff, students, and alumni on the other side. The institute’s basic principles and policies are unclear: on one hand, we were told that the principal mission of the academic staff is research and teaching, implying that entrepreneurship is not to be encouraged, but on the other hand we were told that Technion intends to nurture entrepreneurship among its staff. The current IP and patent policy seems to be designed more for bio-medical inventions, such as drugs, than for information technology (IT). Time-to-market is much more important for IT, and the institute’s investment is typically much lower.

The result is a somewhat low level of entrepreneurship by academic staff and students. The committee does not take a position on this issue, but it is clear that the policies and goals of the IP policy need to be articulated and conveyed to the academic staff and the students.

(10)

Recommendations

Short term [~ within 1 year]:

The institute together with the Faculty of Computer Science must articulate a set of guiding principles for entrepreneurship and intellectual property in the area of information technology.

Medium term [~ within 3-4 year]:

1. The institute must develop IP, entrepreneurship, and conflict-of-interest policies consistent with their agreed-upon guiding principles, and these policies should be articulated and clearly conveyed to the Computer Science Faculty staff and students.

2. The institute must develop guiding principles for budgeting computer science as an experimental discipline.

4. Study Programs

Observations and findings

The undergraduate program is one of the best in Israel, but it is under considerable stress. One source of stress is the attrition rate, which is surprisingly high given the high quality of the students. There is considerable evidence that the feedback to students, in terms of corrected homework assignments, is often inadequate, which may contribute to the attrition rate. In computer science, regular exercises and feedback are essential to the educational mission. Creative solutions employed by other institutions include increased use of undergraduates as graders, as well as peer grading. The committee was also under the impression that faculty courses require substantially more work than similarly-named courses in other institutions. Another source of stress is that average time to degree seems substantially longer than the nominal time, although the committee was not given data. One

(11)

reason for the extended time to degree is the practice of taking the same course multiple times to increase one's grade. This highly unusual practice is a burden on the institute's resources. Undergraduates who do not finish their studies, or who take a long time to do so, place a significant burden on the institute and faculty.

The graduate program is imbalanced for a faculty of such size and stature: the number of PhD students is lower than one would expect. The reason for this imbalance was not clear to the committee. Different explanations were provided, some in terms of the number of interested students, some in terms of availability or flexibility of funding.

There is little active encouragement for undergraduate students to become involved in research. The committee observes that instituting a formal undergraduate research track would encourage undergraduates to do research, continue to graduate school, and enter MSc and possibly PhD programs.

While many Technion alumni have gone on to develop successful start-ups, they received little or no education in management or entrepreneurship. Undergraduate components that add management and entrepreneurship education to technical degree programs have been highly popular in other institutions.

During the visit, the committee was given information about the “Mathematics with Computer Science” program provided by the Mathematics Faculty. While this program’s computer science courses are regular computer science courses, the committee determined that the program falls short of CHE standards for computer science programs. This program would be more appropriately labeled as “Mathematics with a minor in Computer Science”.

(12)

The committee learned that the programming language used in Introduction to Computer Science is C. This is a somewhat surprising choice, as most computer science programs use a higher-level language, such as Java or Python. This choice seems to have been made quite some time ago and had not been reviewed recently.

Recommendations

Short term [~ within 1 year]:

1. The institute and the Computer Science Faculty must develop a plan to ensure that undergraduate students consistently receive adequate feedback on exercises and assignments.

2. The institute and the Computer Science Faculty must undertake a systematic effort to understand undergraduate attrition, including keeping better track of the number of students who drop out of Computer Science across the length of the program, where they go, and their reasons for dropping out of the program.

3. The institute and the Computer Science Faculty must undertake a systematic effort to understand whether, as our observations suggest, the actual undergraduate time-to-degree is substantially longer than the nominal time. 4. The Computer Science Faculty should consider whether restricting the number of times a course can be taken will shorten the time for graduation. 5. The Computer Science Faculty must develop a plan to increase the number

of PhD students.

6. The Computer Science Faculty should develop a plan to establish a formal research track for undergraduate students.

7. The Computer Science Faculty should review the choice of programming language in Introduction to Computer Science, in light of recent advances in pedagogy and practice, as well as the recent recommendations of the 2013 ACM/IEEE Computing Curricula.

(13)

Medium term [~ within 3-4 Years]:

1. The Computer Science Faculty must execute its plan to ensure that undergraduate students receive adequate feedback on exercises and assignments.

2. The Computer Science Faculty must execute its plan to increase the number of PhD students.

3. The Computer Science Faculty must execute its plan to establish a formal research track for undergraduate students.

5. Human Resources / Faculty

Observations and findings

The faculty is in a position to secure substantially more European funding. In addition to the financial benefits, such funding would enhance the Computer Science Faculty’s prestige and visibility, making it easier to attract high-quality academic staff and students.

Academic staff of this caliber should have national and international distinctions such as ACM, IEEE, AAAI fellows, and similar honors. Such distinctions play an increasingly important role in international academic rankings.

Several courses are taught by instructors who are adjunct academic staff members. There appears to be little supervision of the quality of teaching for such courses.

Recommendations

Short term [~ within 1 year]:

(14)

2. The faculty must ensure adequate supervision of teaching and course syllabi taught by non-permanent academic staff to ensure quality of teaching and coherence between courses.

Intermediate term [~ within 2-3 years]:

The academic staff must make a systematic and persistent effort to compete for European funding.

6. Students

Observations and findings

The committee learned that undergraduates feel pressure to retake courses to improve grade averages, and find it difficult to complete the program in the official time. This practice appears to extend the actual time-to-degree, which consumes resources and distorts the student-to-faculty ratio.

There is evidence that the process of matching MSc students with advisors could be made more systematic. The faculty has started to address this issue.

Admission to the PhD program requires a research proposal, which is a barrier to admitting students whose MSc degrees are from other institutions.

There did not seem to be any faculty-wide attempt to monitor and ensure graduate student progress. This is often done by a single graduate committee charged with this responsibility.

The committee learned that the teaching assistants' (TAs) workload is heavy, and regularly exceeds the number of hours they are allowed working by their working agreement with the university.

(15)

Recommendations

Short term [~ within 1 year]:

1. The Computer Science Faculty must establish a mechanism for effective matching of MSc students with advisors.

2. The Computer Science Faculty should develop a plan to attract PhD students with MSc degrees from other institutions.

3. The Computer Science Faculty must establish a mechanism to monitor and ensure graduate student progress.

4. The Computer Science Faculty should reassess its policy of allowing courses to be taken multiple times.

5. The Computer Science Faculty should consider hiring more TAs, including undergraduate TAs.

7. Teaching and Learning Outcomes

Observations and findings

The courses have stated learning outcomes, but the teaching and learning outcomes for the program have not been articulated.

Recommendations

Short term [~ within 1 year]:

The Computer Science Faculty should set in place a process to define and reflect on the attainment of outcomes in a planned, periodic manner.

8. Research

Observations and findings

The Technion Computer Science Faculty ranks among the top computer science academic units in the world. It is the committee's belief that the Computer

(16)

9. Infrastructure

Observations and findings The infrastructure is excellent.

10. Self-Evaluation Process

Observations and findings

(17)

Chapter 4: Summary of Recommendations and Timetable

Short term [~ within 1 year]:

1. The Institute together with Computer Science must articulate a set of guiding principles for entrepreneurship and intellectual property in the area of information technology.

2. The Institute and the Computer Science Faculty must develop a plan to ensure that undergraduate students consistently receive adequate feedback on exercises and assignments.

3. The Institute and the Computer Science Faculty must undertake a systematic effort to understand undergraduate attrition, including keeping better track of the number of students who drop out of Computer Science across the length of the program, where they go, and their reasons for dropping out of the program. 4. The Institute and the Computer Science Faculty must undertake a systematic

effort to understand whether, as our observations suggest, the actual undergraduate time-to-degree is substantially longer than the nominal time. 5. The Computer Science Faculty should consider whether restricting the number

of times a course can be taken will shorten the time for graduation.

6. The Computer Science Faculty must develop a plan to increase the number of PhD students.

7. The Computer Science Faculty should develop a plan to establish a formal research track for undergraduate students.

8. The Computer Science Faculty should review the choice of programming language in Introduction to Computer Science, in light of recent advances in pedagogy and practice, as well as the recent recommendations of the 2013 ACM/IEEE Computing Curricula.

9. Within a year, the Faculty must institute an honors committee to promote nominations of academic staff members for recognition.

(18)

10. The Faculty must ensure adequate supervision of teaching and course syllabi taught by non-permanent academic staff to ensure quality of teaching and coherence between courses.

11. The Computer Science Faculty must establish a mechanism for effective matching of MSc students with advisors.

12. The Computer Science Faculty should develop a plan to attract PhD students with MSc degrees from other institutions.

13. The Computer Science Faculty must establish a mechanism to monitor and ensure graduate student progress.

14. The Computer Science Faculty should reassess its policy of allowing courses to be taken multiple times.

15. The Computer Science Faculty should consider hiring more TAs, including undergraduate TAs.

16. The Computer Science Faculty should set in place a process to define and reflect on the attainment of outcomes in a planned, periodic manner.

Intermediate term [~ within 2-3 years]:

The academic staff must make a systematic and persistent effort to compete for European funding.

Medium Term [~ within 3-4 years]:

1. The Institute should create a task force to develop a strategic plan for the advancement of information technology research and education across the Technion.

2. The Computer Science Faculty should work with its industrial advisory board to rethink the mechanisms and goals of the industrial affiliates program and to increase direct involvement with the alumni relations program.

3. The Institute must develop IP, entrepreneurship, and conflict-of-interest policies consistent with their agreed-upon guiding principles. and these policies should be articulated and clearly conveyed to the Computer Science Faculty staff and students.

(19)

4. The Institute must develop guiding principles for budgeting Computer Science as an experimental discipline.

5. The Computer Science Faculty must execute its plan to ensure that undergraduate students receive adequate feedback on exercises and assignments.

6. The Computer Science Faculty must execute its plan to increase the number of PhD students.

7. The Computer Science Faculty must execute its plan to establish a formal research track for undergraduate students.

(20)

Signed by:

_________________________ _________________________ Prof. Maurice Herlihy Prof. Robert L. Constable

Committee Chair _________________________ _____________ ____________ Prof. Dmitry Feichtner-Kozlov Prof. Kraus Sarit

_________________________ _______________________________ Prof. Joe Turner, Jr. Prof. Moshe Vardi

(21)
(22)

Appendix 2: Site Visit Schedule

Tuesday, May 27, 2014

Time Subject Participants

09:00-09:45 Opening session with the heads of the institution and the senior staff member appointed to deal with Quality Assessment

Senior Executive Vice President: Prof. Moshe Sidi

Deputy Senior Vice President: Prof. Daniel Rittel

Dean of Undergraduate Studies: Prof. Yachin Cohen

Dean of the Graduate School: Prof. Ben-Zion Levi

09:45-10:30 Meeting with the Dean of the

Computer Science Faculty Prof. Irad Yavneh and Prof. Eli Biham 10:30-11:30 Meeting with Vice Deans Prof. Irad Yavneh – Dean

Prof. Danny Geiger – Vice Dean for Teaching Prof. Shaul Markovitch – Vice Dean for Undergraduate Studies

Prof. Danny Raz – Vice Dean for Curriculum Prof. Ran El-Yaniv – Vice Dean for Computing Prof. Yuval Ishai – Vice Dean for Graduate Studies

Noa Mor (replacing Prof. Miki Elad – Vice Dean for External Relations)

11:30-12:30 Meeting with senior academic staff

(no tenure)* 1. Eitan Yaakobi 2. Miri Ben-Chen 3. Yoav Etsion 4. Nir Ailon 12:30-13:15 Meeting with Adjunct academic staff

* 1. Gala Yadgar 2. Tzahi Karni

3. Gadi Aleksandrowicz 4. Ilia Averbouch

5. Rami Cohen 6. Sara Bitan 7. Yechiel Kimchi 13:15-14:30 Lunch (in the same room)

14:30-15:15 Meeting with senior academic staff

(with tenure)* 1. Eran Yahav 2. Orna Grumberg 3. Tuvi Etzion 4. Erez Petrank 5. Hagit Attiya

(23)

Wednesday, May 28, 2014

* The heads of the institution and academic unit or their representatives will not attend these meetings.

** The visit will be conducted in English with the exception of students who may speak in Hebrew and anyone else who feels unable to converse in English.

Time Subject Participants

10:00-11:00 Meeting with Alumni

11:00-11:45 Meeting with Undergraduate Students**

11:45-12:45 Meeting with Graduate Students** 12:45-13:45 Lunch and Closed door meeting of

the Committee

13:45-14:45 Tour of facilities: labs, classrooms,

library, offices 13:45 – Development projects (room 539) 14:00 – Computer Farm (Gadi Rahamim) 14:20 – Library (Ariella Weinstein)

14:30 – Intelligent Systems Lab (Aram Movsisian )

14:45-15:15 Closing meeting with the Dean of the Computer Science Faculty 15:15-16:00 Closing meeting with the Dean of

(24)
(25)
(26)
(27)
(28)

References

Related documents

Health  Care,  Water  &  Sanitation:  International  Volunteering  Opportunities  in  Honduras Salud,  Agua  y  Saneamiento:  Oportunidades  para

conditions. Sometimes a legume that is grown as a green manure crop can supply enough biomass N to meet the entire N require- ment of the next crop. This depends on the

M is microfinance participation dummy, 1 for participating households, zero otherwise, T is number of times borrowed which is zero for the control household and varies for

In this paper we establish the asymptotic behavior of the variance-targeting estimator of the parameters for the multivariate BEKK augmented by exogenous variables. We do not

In the present section, we verify properties of Lévy measures corresponding to mul- tivariate Lévy processes X with state space R d built from so-called tempered sta- ble,

Agents can help transform closed trading partner networks into open markets and extend such applications as production, distribution, and inventory management functions across

Figure 3 shows the message flow over AMQP among nova-* components of OpenStack which we were able to deduce using our message path when using nova-network. This flow is applicable

Gear-wise landing data for the period between 2005 and 2006 are analyzed with special reference to seasonal abundance of major groups landed in mechanized trawlers and motorized